Electronic device for facilitating user interactions with graphical user interface

ABSTRACT

An electronic device is provided. The electronic device includes a display screen and a computing hardware. The computing hardware is operable to execute a software product, wherein executing the software product results in generating and rendering a graphical user interface on the display screen, the graphical user interface being configured to facilitate user interactions, the computing hardware, the software product and the graphical user interface being implemented on a gaming system, the gaming system comprising a game, wherein the software product, when executed on the computing hardware, is configured to present a first view on the graphical user interface, present one or more user-selectable graphical objects on the graphical user interface, detect a user&#39;s selection of one of the one or more of the user-selectable graphical objects to be deployed in the first view on the graphical user interface, detect a user&#39;s selection of a deploy point on the first view, and execute deployment of the one of the one or more of the user-selectable graphical objects to the first view of the graphical user interface, wherein other set of graphical objects emerge from the one or more user-selectable graphical object and enter to the first view from one or more areas in a proximity of the deploy point.

TECHNICAL FIELD

The present disclosure relates generally to gaming systems, and more specifically, to electronic devices for facilitating user interactions with a graphical user interface. Moreover, the present disclosure relates to methods of facilitating user interactions with a graphical user interface. Furthermore, the present disclosure also relates to software products stored on non-transitory (non-transient) machine-readable data storage media, wherein the software products are executable upon computing hardware of an electronic device to implement the aforesaid methods.

BACKGROUND

Today, various electronic devices have been developed to provide user-friendly interfaces for facilitating easy and quick user interaction. Examples of such electronic devices include, but are not limited to, smart phones, Mobile Internet Devices (MIDs), phablet computers, tablet computers, Ultra-Mobile Personal Computers (UMPCs), Personal Digital Assistants (PDAs), web pads, handheld Personal Computers (PCs), laptop computers, interactive entertainment computers, and gaming terminals. Most of these electronic devices include touch-sensitive display screens, which make them more user-friendly and easier to use.

In order to provide entertaining experience to users, various gaming systems may be implemented on such electronic devices. An important aspect of a gaming system implemented on an electronic device is an ease with which a user can interact with a user interface of a game to control various operations of the game.

FIG. 1 is a schematic illustration of a known conventional user interface of an example gaming system for implementation on an electronic device; FIG. 1 represents prior art. The example gaming system includes a war strategy game in which a user's purpose is to build and expand his/her territory, for example, by attacking one or more territories owned by other users or simulated opponents.

FIG. 1 depicts an example game view 100 of the example gaming system. The example game view 100 shows an enemy territory being attacked by the user. The enemy territory includes a land region 102 and a shore region 104. A plurality of target objects, depicted as a target object 106 a and a target object 106 b in FIG. 1, are positioned in the land region 102. The user is typically required to destroy the target objects 106 a and 106 b to defeat his/her enemy.

In order to attack the target objects 106 a and 106 b, the user deploys a plurality of war-ships on the shore region 104, depicted as a war-ship 108 a, a war-ship 108 b and a war-ship 108 c in FIG. 1 (hereinafter collectively referred to as war-ships 108).

Typically, the user may deploy the war-ships 108 by selecting a desired place on the shore region 104, for example, by tapping with a finger or clicking with a pointer object. In an example situation where the user wishes to attack on the target object 106 a, before attacking the target object 106 b, the user deploys the war-ships 108 as close to the target region 106 a as is possible. The war-ships 108 may typically be deployed beside each other.

Consequently, troops emerging from the war-ships 108 a and 108 b enter the enemy territory via target routes 110 a and 110 b, respectively, as shown in FIG. 1. These troops attack on the target object 106 a, as the user desired.

However, space available on the shore region 104 is often limited. In a situation where the war-ship 108 c is deployed after the war-ships 108 a and 108 b have been deployed, the war-ship 108 c is forced to be deployed in a proximity of the target object 106 b, as shown in FIG. 1. The war-ship 108 c may, for example, be deployed in a place from where both the targets 106 a and 106 b are substantially equally distant.

Consequently, troops emerging from the war-ship 108 c have two possible target routes, depicted as target routes 110 c and 110 d. The target route 110 c leads the troops to the target object 106 a, while the target route 110 d leads the troops to the target object 106 b. As the troops select a shortest target route from amongst the target routes 110 c and 110 d automatically, it is not possible for the user to select a route from which the user would want the troops to enter. In a situation where the target route 110 d is the shortest target route, the troops emerging from the war-ship 108 c attack the target object 106 b, instead of the target object 106 a. This makes it impossible for the user to control deployment of these troops. As a result, the user may find it difficult to define a war strategy as per his/her desire.

Therefore, there exists a need for a graphical user interface that enables a user to define a strategy as per his/her desire.

SUMMARY

The present disclosure seeks to provide an electronic device.

The present disclosure also seeks to provide a method of facilitating user interactions with a graphical user interface.

In one aspect, embodiments of the present disclosure provide an electronic device. The electronic device includes a display screen and a computing hardware. The computing hardware is operable to execute a software product, which results in generating and rendering a graphical user interface on the display screen. The graphical user interface is configured to facilitate user interactions. The computing hardware, the software product and the graphical user interface are implemented on a gaming system. In an embodiment of the present disclosure, the gaming system includes a war strategy game.

The software product, when executed on the computing hardware, is configured to present a first view of a map on the graphical user interface. The first view of the map displays an enemy territory. The software product, when executed on the computing hardware, is also configured to present one or more user-selectable graphical objects on the graphical user interface. The one or more user-selectable graphical objects may, for example, include one or more troop transportation units.

Additionally, the software product, when executed on the computing hardware, is configured to detect a user's selection of one of the one or more troop transportation units to be deployed to attack the enemy territory, and detect a user's selection of a deploy point on the enemy territory. The software product, when executed on the computing hardware, is configured to execute deployment of the one of the one or more troop transportation units on the enemy territory, upon detection of the user's selections. Consequently, troops emerging from the one of the one or more troop transportation units enter the enemy territory from one or more areas in a proximity of the deploy point.

Apart from the one or more troop transportation units, the one or more user-selectable graphical objects may also include one or more supplemental fires. The software product, when executed on the computing hardware, is optionally configured to detect a user's selection of one of the one or more supplemental fires to be fired, and detect a user's selection of a fire point on the enemy territory. Accordingly, the software product, when executed on the computing hardware, is optionally configured to execute firing of the one of the one or more supplemental fires on the fire point selected on the enemy territory, upon detection of the user's selections.

In an embodiment of the present disclosure, the one of the one or more supplemental fires is a flash fire that, when fired, re-directs the troops to pass through one or more areas in a proximity of the fire point.

Moreover, the software product, when executed on the computing hardware, is optionally configured to levy a cost of usage of the one of the one or more supplemental fires. Optionally, the cost of usage may be substantially different for each usage of the one of the one or more supplemental fires. In an embodiment of the present disclosure, the cost of usage increases with each usage of the one of the one or more supplemental fires. In another embodiment of the present disclosure, the cost of usage increases after the one of the one or more supplemental fires has been used a predefined number of times.

Moreover, the software product, when executed on the computing hardware, is configured to present a second view of the map on the graphical user interface. The second view of the map displays one or more user-owned territories and one or more enemy territories. Accordingly, the software product, when executed on the computing hardware, is configured to enable a user's selection of one of the one or more enemy territories to be attacked.

The second view of the map optionally includes one or more visible areas and one or more at-least-partially-hidden areas. In such a situation, the software product, when executed on the computing hardware, is optionally configured to present a user-selectable map-resource object on the graphical user interface, detect a user's selection of the user-selectable map-resource object, and present a third view of the map on the graphical user interface. Based at least partially upon the user's selection of the user-selectable map-resource object, at least one of the one or more at-least-partially-hidden areas of the second view of the map is made visible on the third view of the map.

In an example embodiment of the present disclosure, the user-selectable map-resource object includes a radar. Accordingly, the software product, when executed on the computing hardware, is optionally configured to present a user-selectable upgrade option on the graphical user interface, and detect a user's selection of the user-selectable upgrade option. The software product, when executed on the computing hardware, is optionally configured to upgrade the user-selectable map-resource object, based at least partially upon the user's selection of the user-selectable upgrade option. Consequently, the at least one of the one or more at-least-partially-hidden areas is made visible when the user-selectable map-resource object is upgraded.

The software product, when executed on the computing hardware, is optionally configured to levy a cost of usage of the user-selectable map-resource object.

In order to detect user's selections, the electronic device also includes a user input interface rendered over the graphical user interface. The user input interface is configured to detect an input corresponding to moving a pointer object, clicking or tapping the pointer object, or swiping a touch-sensitive object over the graphical user interface.

Moreover, the electronic device optionally includes a database for substantially continuously recording and updating changes in status of the one or more user-selectable graphical objects. The software product, when executed on the computing hardware, is coupled to the database. The software product, when executed on the computing hardware, is optionally configured to resume the status of the one or more user-selectable graphical objects to their last updated status in the database, in case of interruptions in the operable state of the graphical user interface.

In an embodiment of the present disclosure, a plurality of electronic devices are coupled in communication with a server via a communication network. Graphical user interfaces are generated temporally concurrently on display screens of the plurality of electronic devices, to facilitate interactions of a plurality of users with the graphical user interfaces. Beneficially, the graphical user interfaces generated on the plurality of electronic devices are coordinated and synchronized through the server, and updated on the plurality of electronic devices concurrently with time.

Examples of these electronic devices include, but are not limited to, mobile phones, smart telephones, Mobile Internet Devices (MIDs), tablet computers, Ultra-Mobile Personal Computers (UMPCs), phablet computers, Personal Digital Assistants (PDAs), web pads, Personal Computers (PCs), Handheld PCs, laptop computers, desktop computers, Network-Attached Storage (NAS) devices, large-sized touch screens with embedded PCs, and interactive entertainment devices, such as game consoles, Television (TV) sets and Set-Top Boxes (STBs).

In another aspect, embodiments of the present disclosure provide a method of facilitating user interactions with the graphical user interface.

In yet another aspect, embodiments of the present disclosure provide a software product stored on non-transitory (non-transient) machine-readable data storage media, wherein the software product is executable upon computing hardware of the electronic device for implementing the aforementioned method. The software product may, for example, be downloadable from a software application store to the electronic device.

Embodiments of the present disclosure substantially eliminate, or at least partially address, the aforementioned problems in the prior art, and enable users to control deployment of troops, thereby enabling the users to define a war strategy as per their desire.

Additional aspects, advantages, features and objects of the present disclosure would be made apparent from the drawings and the detailed description of the illustrative embodiments construed in conjunction with the appended claims that follow.

It will be appreciated that features of the present disclosure are susceptible to being combined in various combinations without departing from the scope of the present disclosure as defined by the appended claims.

DESCRIPTION OF THE DRAWINGS

The summary above, as well as the following detailed description of illustrative embodiments, is better understood when read in conjunction with the appended drawings. For the purpose of illustrating the present disclosure, exemplary constructions of the disclosure are shown in the drawings. However, the present disclosure is not limited to specific methods and instrumentalities disclosed herein. Moreover, those in the art will understand that the drawings are not to scale. Wherever possible, like elements have been indicated by identical numbers.

Embodiments of the present disclosure will now be described, by way of example only, with reference to the following diagrams wherein:

FIG. 1 (Prior Art) is a schematic illustration of a known conventional user interface of an example gaming system for implementation on an electronic device;

FIG. 2 is a schematic illustration of an example network environment that is suitable for practicing embodiments of the present disclosure;

FIG. 3 is a schematic illustration of various components of an electronic device, in accordance with an embodiment of the present disclosure;

FIGS. 4A, 4B, 4C and 4D are illustrations of an example game view of a gaming system, in accordance with an embodiment of the present disclosure;

FIG. 5 is an illustration of an example screenshot of a game view of the gaming system, in accordance with an embodiment of the present disclosure;

FIG. 6 is an illustration of another example screenshot of the game view of the gaming system, in accordance with an embodiment of the present disclosure;

FIG. 7 is an illustration of an example game view of the gaming system, in accordance with an embodiment of the present disclosure;

FIGS. 8A, 8B and 8C are illustrations of another example game view of the gaming system, in accordance with an embodiment of the present disclosure;

FIG. 9 is an illustration of yet another example game view of the gaming system, in accordance with an embodiment of the present disclosure; and

FIG. 10 is an illustration of steps of a method of facilitating user interactions with a graphical user interface, in accordance with an embodiment of the present disclosure.

In the accompanying drawings, an underlined number is employed to represent an item over which the underlined number is positioned or an item to which the underlined number is adjacent. A non-underlined number relates to an item identified by a line linking the non-underlined number to the item. When a number is non-underlined and accompanied by an associated arrow, the non-underlined number is used to identify a general item at which the arrow is pointing.

DETAILED DESCRIPTION OF EMBODIMENTS

The following detailed description illustrates embodiments of the present disclosure and ways in which they can be implemented. Although the best mode of carrying out the present disclosure has been disclosed, those skilled in the art would recognize that other embodiments for carrying out or practicing the present disclosure are also possible.

Embodiments of the present disclosure provide an electronic device for facilitating a gaming environment. The electronic device includes a display screen and a computing hardware. The computing hardware is operable to execute a software product, which results in generating and rendering a graphical user interface on the display screen. The graphical user interface is configured to facilitate user interactions. The computing hardware, the software product and the graphical user interface are implemented on a gaming system. In an embodiment of the present disclosure, the gaming system includes a war strategy game.

The software product, when executed on the computing hardware, is configured to present a first view of a map on the graphical user interface. The first view of the map displays an enemy territory. The software product, when executed on the computing hardware, is also configured to present one or more user-selectable graphical objects on the graphical user interface. The one or more user-selectable graphical objects may, for example, include one or more troop transportation units.

Additionally, the software product, when executed on the computing hardware, is configured to detect a user's selection of one of the one or more troop transportation units to be deployed to attack the enemy territory, and detect a user's selection of a deploy point on the enemy territory. The software product, when executed on the computing hardware, is configured to execute deployment of the one of the one or more troop transportation units on the enemy territory, upon detection of the user's selections. Consequently, troops emerging from the one of the one or more troop transportation units enter the enemy territory from one or more areas in a proximity of the deploy point.

Apart from the one or more troop transportation units, the one or more user-selectable graphical objects may also include one or more supplemental fires. The one or more supplemental fires may, for example, include one or more weapons, one or more ammunitions, one or more flash fires, and the like. The one or more supplemental fires may be fired from one of the one or more troop transportation units and/or a battle-ship positioned in a sea, for example, to supplement the troops.

The software product, when executed on the computing hardware, is optionally configured to detect a user's selection of one of the one or more supplemental fires to be fired, and detect a user's selection of a fire point on the enemy territory. Accordingly, the software product, when executed on the computing hardware, is optionally configured to execute firing of the one of the one or more supplemental fires on the fire point selected on the enemy territory, upon detection of the user's selections.

In an embodiment of the present disclosure, the one of the one or more supplemental fires is a flash fire that, when fired, re-directs the troops to pass through one or more areas in a proximity of the fire point.

Moreover, the software product, when executed on the computing hardware, is optionally configured to levy a cost of usage of the one of the one or more supplemental fires. Optionally, the cost of usage may be substantially different for each usage of the one of the one or more supplemental fires. In an embodiment of the present disclosure, the cost of usage increases with each usage of the one of the one or more supplemental fires. In another embodiment of the present disclosure, the cost of usage increases after the one of the one or more supplemental fires has been used a predefined number of times.

Moreover, the software product, when executed on the computing hardware, is configured to present a second view of the map on the graphical user interface. The second view of the map displays one or more user-owned territories and one or more enemy territories. Accordingly, the software product, when executed on the computing hardware, is configured to enable a user's selection of one of the one or more enemy territories to be attacked.

The second view of the map optionally includes one or more visible areas and one or more at-least-partially-hidden areas. In such a situation, the software product, when executed on the computing hardware, is optionally configured to present a user-selectable map-resource object on the graphical user interface, detect a user's selection of the user-selectable map-resource object, and present a third view of the map on the graphical user interface. Based at least partially upon the user's selection of the user-selectable map-resource object, at least one of the one or more at-least-partially-hidden areas of the second view of the map is made visible on the third view of the map.

In an example embodiment of the present disclosure, the user-selectable map-resource object includes a radar. Accordingly, the software product, when executed on the computing hardware, is optionally configured to present a user-selectable upgrade option on the graphical user interface, and detect a user's selection of the user-selectable upgrade option. The software product, when executed on the computing hardware, is optionally configured to upgrade the user-selectable map-resource object, based at least partially upon the user's selection of the user-selectable upgrade option. Consequently, the at least one of the one or more at-least-partially-hidden areas is made visible when the user-selectable map-resource object is upgraded.

The software product, when executed on the computing hardware, is optionally configured to levy a cost of usage of the user-selectable map-resource object.

In order to detect user's selections, the electronic device also includes a user input interface rendered over the graphical user interface. The user input interface is configured to detect an input corresponding to moving a pointer object, clicking or tapping the pointer object, or swiping a touch-sensitive object over the graphical user interface.

Moreover, the electronic device optionally includes a database for substantially continuously recording and updating changes in status of the one or more user-selectable graphical objects. The software product, when executed on the computing hardware, is coupled to the database. The software product, when executed on the computing hardware, is optionally configured to resume the status of the one or more user-selectable graphical objects to their last updated status in the database, in case of interruptions in the operable state of the graphical user interface.

In an embodiment of the present disclosure, a plurality of electronic devices are coupled in communication with a server via a communication network. Graphical user interfaces are generated temporally concurrently on display screens of the plurality of electronic devices, to facilitate interactions of a plurality of users with the graphical user interfaces. Beneficially, the graphical user interfaces generated on the plurality of electronic devices are coordinated and synchronized through the server, and updated on the plurality of electronic devices concurrently with time.

Examples of these electronic devices include, but are not limited to, mobile phones, smart telephones, Mobile Internet Devices (MIDs), tablet computers, Ultra-Mobile Personal Computers (UMPCs), phablet computers, Personal Digital Assistants (PDAs), web pads, Personal Computers (PCs), Handheld PCs, laptop computers, desktop computers, Network-Attached Storage (NAS) devices, large-sized touch screens with embedded PCs, and interactive entertainment devices, such as game consoles, Television (TV) sets and Set-Top Boxes (STBs).

Referring now to the drawings, particularly by their reference numbers, FIG. 2 is a schematic illustration of an example network environment 200 that is suitable for practicing embodiments of the present disclosure. The network environment 200 includes one or more electronic devices, depicted as an electronic device 202 a, an electronic device 202 b and an electronic device 202 c in FIG. 2 (hereinafter collectively referred to as electronic devices 202). The network environment 200 also includes a server 204 and a communication network 206. The server 204 is coupled to a database 208.

The network environment 200 may be implemented in various ways, depending on various possible scenarios. In one example scenario, the network environment 200 may be implemented by way of a spatially collocated arrangement of the server 204 and the database 208. In another example scenario, the network environment 200 may be implemented by way of a spatially distributed arrangement of the server 204 and the database 208 coupled mutually in communication via the communication network 206. In yet another example scenario, the server 204 and the database 208 may be implemented via cloud computing services.

The electronic devices 202 are coupled in communication with the server 204 via the communication network 206. The communication network 206 can be a collection of individual networks, interconnected with each other and functioning as a single large network. Such individual networks may be wired, wireless, or a combination thereof. Examples of such individual networks include, but are not limited to, Local Area Networks (LANs), Wide Area Networks (WANs), Metropolitan Area Networks (MANs), Wireless LANs (WLANs), Wireless WANs (WWANs), Wireless MANs (WMANs), the Internet, second generation (2G) telecommunication networks, third generation (3G) telecommunication networks, fourth generation (4G) telecommunication networks, and Worldwide Interoperability for Microwave Access (WiMAX) networks.

Additionally or alternatively, the electronic devices 202 may use their own “Bluetooth” network, and connect to a “Bluetooth” server, to synchronize with other electronic devices. (“Bluetooth” is a registered trademark).

Examples of the electronic devices 202 include, but are not limited to, mobile phones, smart telephones, Mobile Internet Devices (MIDs), tablet computers, Ultra-Mobile Personal Computers (UMPCs), phablet computers, Personal Digital Assistants (PDAs), web pads, Personal Computers (PCs), Handheld PCs, laptop computers, desktop computers, Network-Attached Storage (NAS) devices, large-sized touch screens with embedded PCs, and interactive entertainment devices, such as game consoles, Television (TV) sets and Set-Top Boxes (STBs).

The network environment 200 is suitable for operating various gaming systems, simulation systems, or other similar systems. In an embodiment of the present disclosure, the network environment 200 is suitable for operating an online multiplayer gaming system.

In one embodiment, the network environment 200 is used to implement a thin-client game. Accordingly, the gaming system may be arranged in a manner that its functionality is implemented partly in the electronic devices 202 and partly in the server 204.

In another embodiment, the network environment 200 is used to implement a thick-client game. According, the gaming system may be arranged in a manner that its functionality is implemented substantially in the electronic devices 202.

In yet another embodiment, the network environment 200 is used to implement a web-based game. Accordingly, the gaming system may be arranged in a manner that its functionality is implemented substantially in the server 204.

The electronic devices 202 may access the server 204 to download one or more new games or update one or more existing games.

Users associated with the electronic devices 202 play one or more games provided by the gaming system. The gaming system may enable the users to interact and/or share some information with each other.

Additionally, the gaming system may enable some or all of the users to play a game mutually, for example, against each other or as a team. Alternatively, the gaming system may enable the users to play their individual games irrespective of each other.

For illustration purposes, let us consider that a user A is associated with the electronic device 202 a, a user B is associated with the electronic device 202 b, and a user C is associated with the electronic device 202 c. Let us also consider an example situation where the gaming system enables the users A and B to play a game mutually, for example, against each other. Accordingly, graphical user interfaces are generated temporally concurrently on display screens of the electronic devices 202 a and 202 b, to facilitate interactions of the users A and B with their graphical user interfaces, respectively. In the example situation, the server 204 coordinates and synchronizes the graphical user interfaces generated on the electronic devices 202 a and 202 b, and updates the graphical user interfaces on the electronic devices 202 a and 202 b concurrently with time.

Now, let us consider another example situation where the gaming system enables the user C to play a game solitarily. In such a situation, the electronic device 202 c need not be coupled to the server 204 substantially continuously, for example, during playing of the game. The electronic device 202 c may be coupled to the server 204, for example, when downloading the game from the server. Additionally, the electronic device 202 c may be coupled to the server 204 periodically or randomly, for example, to receive updates from the server 204.

Furthermore, the server 204 stores game-related information in the database 208. The game-related information may, for example, include at least one of: accounts of the users, credits of the users, scores of the users, status of games being played by the users, screen-shots of the games, game-related parameters, game views being used by the users, game levels at which the users are playing, versions of the games, and/or associated time-stamps.

Beneficially, the electronic devices 202 and/or the server 204 substantially continuously record and update changes in the status of the games being played by the users in the database 208. The electronic devices 202 are optionally configured to resume the status of the games to their last updated status in the database 208, in case of interruptions in the operable state of the graphical user interfaces.

Optionally, the game-related information, including information about the changes in the status of the games, may be sent to the server 204 in a form of data packages. A data package may typically include a header, a payload and a checksum. The checksum can be a function of the payload. Alternatively, the checksum can be a unique identifier of the user, such as a username being used by the user. Those skilled in the art will understand that an appropriate checksum function or a checksum algorithm may be applied to a plurality of data packages to obtain the checksum, while the game is being played.

In order to avoid possible frauds, the checksum corresponding to a particular data package can be recomputed at any point of time, and compared with the checksum stored with that particular data package. Thus, including the checksum in the data package potentially reduces occurrences of frauds in the game.

FIG. 2 is merely an example, which should not unduly limit the scope of the claims herein. It is to be understood that the specific designation for the network environment 200 is provided as an example and is not to be construed as limiting the network environment 200 to specific numbers, types, or arrangements of electronic devices, servers, communication networks and databases. A person skilled in the art will recognize many variations, alternatives, and modifications of embodiments of the present disclosure.

FIG. 3 is a schematic illustration of various components of an electronic device 300, in accordance with an embodiment of the present disclosure. The electronic device 300 includes, but is not limited to, a data memory 302, a computing hardware such as a processor 304, Input/Output (I/O) devices 306, a network interface 308, and a system bus 310 that operatively couples various components including the data memory 302, the processor 304, the I/O devices 306 and the network interface 308. The electronic device 300 also includes a power source (not shown in FIG. 3) for supplying electrical power to the various components of the electronic device 300. The power source may, for example, include a rechargeable battery.

The data memory 302 optionally includes non-removable memory, removable memory, or a combination thereof. The non-removable memory, for example, includes Random-Access Memory (RAM), Read-Only Memory (ROM), flash memory, or a hard drive. The removable memory, for example, includes flash memory cards, memory sticks, or smart cards.

The data memory 302 stores a software product 312, while the processor 304 is operable to execute the software product 312. Executing the software product 312 on the processor 304 results in generating and rendering a graphical user interface on the display screen. The graphical user interface is configured to facilitate user interactions.

The computing hardware, the software product 312 and the graphical user interface are optionally implemented on a gaming system. In an embodiment of the present disclosure, the gaming system includes a war strategy game.

Accordingly, the I/O devices 306 facilitate a user input interface rendered over the graphical user interface. The user input interface is optionally configured to detect an input corresponding to moving a pointer object, clicking or tapping the pointer object, or swiping a touch-sensitive object over the graphical user interface.

The I/O devices 306 include a display screen for presenting graphical images to a user of the electronic device 300. Beneficially, the display screen may be a touch-sensitive display screen that is operable to provide the user input interface. The touch-sensitive display screen is operable to receive tactile inputs from the user. These tactile inputs may, for example, include clicking, tapping, pointing, moving, pressing and/or swiping with a finger or a touch-sensitive object like a pen.

The touch-sensitive display screen is optionally configured to sense a pressure applied by the finger or the touch-sensitive object. In one example, the touch-sensitive display screen may be a capacitive touch screen that is operable to detect changes in capacitance. In another example, the touch-sensitive display screen may be a resistive touch screen that is operable to detect changes in resistance. In yet another example, the touch-sensitive display screen is an optical touch screen that is operable to detect changes in reflectivity.

Upon detecting the tactile inputs, the software product 312, when executed on the processor 304, is configured to identify a gesture related to the tactile inputs. The gesture may take into account at least one of: a force applied by the user, a pressure applied by the user, a speed with which the pointer object was moved, a duration for which the gesture was applied, and/or a position on the touch-sensitive display screen where the gesture was applied. Consequently, the software product 312, when executed on the processor 304, is configured to analyse the gesture, and to apply an appropriate action corresponding to the gesture.

Additionally or alternatively, the I/O devices 306 include a mouse, a keyboard or a joystick that is operable to receive inputs corresponding to clicking, pointing, and/or moving a pointer object on the graphical user interface.

Moreover, the I/O devices 306 may also include a speaker for providing an audio output to the user, and a microphone for receiving an audio input from the user.

Optionally, the electronic device 300 includes non-transient data storage arrangements, for example, such as a database (not shown in FIG. 3). The software product 312, when executed on the processor 304, is optionally coupled to the database. The software product 312, when executed on the processor 304, is optionally configured to substantially continuously record and update changes in status of a game being played by the user in the database. The software product 312, when executed on the processor 304, is optionally configured to resume the status of the game to its last updated status in the database, in case of interruptions in the operable state of the graphical user interface.

Additionally, the software product 312, when executed on the processor 304, may store game-related information in the database. The game-related information may, for example, include at least one of: an account of the user, credits of the user, scores of the user, the status of the game, screen-shots of the game, game-related parameters, a game view being used by the user, a game level at which the user is playing, a version of the game, and/or associated time-stamps.

Moreover, the network interface 308 optionally allows the electronic device 300 to upload the game-related information to a remote server (not shown in FIG. 3), for example, via a communication network (not shown in FIG. 3). Additionally, the network interface 308 may allow the electronic device 300 to access the remote server to download one or more new games or update one or more existing games.

Moreover, the network interface 308 optionally allows the electronic device 300 to communicate with other electronic devices, for example, via the communication network. The communication network may, for example, be a collection of individual networks, interconnected with each other and functioning as a single large network. Such individual networks may be wired, wireless, or a combination thereof. Examples of such individual networks include, but are not limited to, LANs, WANs, MANs, WLANs, WWANs, WMANs, 2G telecommunication networks, 3G telecommunication networks, 4G telecommunication networks, and WiMAX networks. Additionally or alternatively, the electronic device 300 may also use its own “Bluetooth” network, and connect to a “Bluetooth” server, to synchronize with the other electronic devices.

The electronic device 300 is optionally implemented by way of at least one of: a mobile phone, a smart telephone, an MID, a tablet computer, a UMPC, a phablet computer, a PDA, a web pad, a PC, a Handheld PC, a laptop computer, a desktop computer, an NAS device, a large-sized touch screen with an embedded PC, and an interactive entertainment device, such as a game console, a TV set and an STB.

FIG. 3 is merely an example, which should not unduly limit the scope of the claims herein. It is to be understood that the specific designation for the electronic device 300 is provided as an example and is not to be construed as limiting the electronic device 300 to specific numbers, types, or arrangements of modules and/or components of the electronic device 300. A person skilled in the art will recognize many variations, alternatives, and modifications of embodiments of the present disclosure. For example, the electronic device 300 could be implemented as the electronic devices 202, and vice versa.

FIGS. 4A, 4B, 4C and 4D are illustrations of an example game view 400 of a gaming system, in accordance with an embodiment of the present disclosure. The gaming system may, for example, include a war strategy game in which a user's purpose is to expand his/her territory, for example, by attacking one or more enemy territories. An enemy territory may, for example, be a territory owned by another user or a simulated opponent.

For illustration purposes only, let us assume that the gaming system has been implemented on the electronic device 300. The software product 312, when executed on the processor 304, is configured to present the example game view 400 on the graphical user interface generated and rendered on the display screen of the electronic device 300. The example game view 400 may, for example, be a first view of a map that displays an enemy territory being attacked by the user. The enemy territory includes a land region 402 and a shore region 404, as shown in FIG. 4A. A plurality of target objects, depicted as a target object 406 a and a target object 406 b in FIG. 4A, are positioned in the land region 402. The target objects 406 a and 406 b may, for example, include headquarters or other defence objects belonging to the enemy territory.

The software product 312, when executed on the processor 304, is also configured to present one or more user-selectable graphical objects on the graphical user interface. The one or more user-selectable graphical objects may be presented within a selection-menu area 408 on the graphical user interface, as shown in FIG. 4A. With reference to FIG. 4A, the selection-menu area 408 has been positioned in a proximity of a periphery of the graphical user interface. In one example, the selection-menu area 408 may be displayed substantially continuously during playing of the game. In another example, the selection-menu area 408 may be displayed as and when required, for example, when the user slides a pointer object towards the periphery of the graphical user interface.

The one or more user-selectable graphical objects include one or more troop transportation units, depicted as a troop transportation unit 410 a, a troop transportation unit 410 b and a troop transportation unit 410 c in FIG. 4 (hereinafter collectively referred to as troop transportation units 410). Examples of the troop transportation units 410 include, but are not limited to, war-ships, war-planes, war-vessels, and war-crafts. Use of the troop transportation units 410 may not be limited to transportation of troops from a user-owned territory to the enemy territory, but may additionally or alternatively include carrying weapons, ammunitions and other supplies for the troops.

The software product 312, when executed on the processor 304, is configured to detect a user's selection of one of the troop transportation units 410 to be deployed to attack the enemy territory, and detect a user's selection of a deploy point on the enemy territory. The software product 312, when executed on the processor 304, is configured to execute deployment of the one of the troop transportation units 410 on the enemy territory, upon detection of the user's selections.

With reference to FIG. 4B, let us consider an example situation where the user selected a first deploy point 412 a for deploying the troop transportation unit 410 a, a second deploy point 412 b for deploying the troop transportation unit 410 b and a third deploy point 412 c for deploying the troop transportation unit 410 c, for example, one after another. As shown in FIG. 4B, the troop transportation units 410 a, 410 b and 410 c are deployed as close to their respective deploy points 412 a, 412 b and 412 c as possible on the shore region 404. Beneficially, the troop transportation units 410 a, 410 b and 410 c are deployed to a free space that is nearest to their respective deploy points 412 a, 412 b and 412 c.

Consequently, troops emerging from the troop transportation units 410 a, 410 b and 410 c enter the enemy territory from one or more areas in proximities of their respective deploy points 412 a, 412 b and 412 c. With reference to FIG. 4B, curved arrows 414 a, 414 b and 414 c depict target routes taken by the troops emerging from the troop transportation units 410 a, 410 b and 410 c, respectively.

Moreover, the software product 312, when executed on the processor 304, may be configured to enable a user's selection of a type of troop to be deployed, for example, by providing one or more troop-type options on the selection-menu area 408.

With reference to FIG. 4B, the troop transportation units 410 have been deployed from the shore region 404. It is to be noted here that the deployment of the troop transportation units 410 is not limited to the shore region 404. Troop transportation units, such as war-planes, may be deployed at any deploy point on the enemy territory.

Moreover, in another example situation, one of the target objects 406 a and 406 b may be a defence object that applies various defence mechanisms, such as throwing flames or firing ammunitions, against the troops that have entered the enemy territory. In such a situation, the user may choose to supplement the troops, for example, by using one or more supplemental fires.

Accordingly, the one or more user-selectable graphical objects may include one or more supplemental fires. The software product 312, when executed on the processor 304, is optionally configured to detect a user's selection of one of the one or more supplemental fires to be fired, and detect a user's selection of a fire point on the enemy territory. Accordingly, the software product 312, when executed on the processor 304, is optionally configured to execute firing of the one of the one or more supplemental fires on the fire point selected on the enemy territory, upon detection of the user's selections.

The one or more supplemental fires may, for example, include one or more weapons, one or more ammunitions, one or more flash fires, and the like. The one or more supplemental fires may be fired, for example, from one of the troop transportation units 410 and/or a battle-ship positioned in a sea near the shore region 404. With reference to FIG. 4B, the one or more supplemental fires include a weapon 416, an ammunition 417 and a flash fire 418, presented within the selection-menu area 408.

With reference to FIG. 4C, let us assume that the user selected a fire point 420 for firing the ammunition 417. Accordingly, the ammunition 417 is fired at the fire point 420, as shown in FIG. 4C.

With reference to FIG. 4D, let us assume that the user selected a fire point 422 for firing the flash fire 418. The user may use the flash fire 418 to guide troops that have entered the enemy territory, for example, to enable the troops to reach a desired target object. In an example situation where the target object 106 a has been at least partially destroyed, the user may choose to attack the target object 106 b.

Accordingly, the flash fire 418 is fired on the fire point 422. Consequently, the flash fire 418 re-directs the troops to pass through one or more areas in a proximity of the fire point 422. Accordingly, the troops that have entered the enemy territory take a target route 424, as shown in FIG. 4D. The target route 424 passes through the areas in the proximity of the fire point 422, and re-directs the troops towards a nearest target object. With reference to FIG. 4D, the target route 424 re-directs the troops towards the target object 406 b.

In this manner, the gaming system enables the user to define a war strategy as per his/her desire.

FIGS. 4A, 4B, 4C and 4D are merely examples, which should not unduly limit the scope of the claims herein. A person skilled in the art will recognize many variations, alternatives, and modifications of embodiments of the present disclosure.

Furthermore, the software product 312, when executed on the processor 304, is optionally configured to levy a cost of usage of the one or more supplemental fires. In an embodiment of the present disclosure, the software product 312, when executed on the processor 304, is configured to allocate funds for usage of the one or more supplemental fires. The allocation of the funds may, for example, be based on at least one of: points earned by the user, resources collected by the user, and/or a current score of the user. Accordingly, the software product 312, when executed on the processor 304, is optionally configured to levy the cost of usage from the allocated funds.

Additionally, the software product 312, when executed on the processor 304, may be configured to increase the allocated funds during playing of the game. In one example, the allocated funds may be increased when the user destroys one of the target objects 406 a and 406 b.

Optionally, the cost of usage may be substantially different for each usage of a particular supplemental fire. In an embodiment of the present disclosure, the cost of usage increases with each usage of the particular supplemental fire. In another embodiment of the present disclosure, the cost of usage increases after the particular supplemental fire has been used a predefined number of times.

In order to illustrate how the cost of usage may be varied, let us consider an example table in which costs of usage of example supplemental fires have been provided. The costs have been provided in arbitrary units.

Supplemental First Second Third N^(th) Fire Usage Usage Usage Usage F1 2 4 8 2{circumflex over ( )}N F2 1 2 3 N F3 10 5 3.33 10/N F4 1 1.1 1.2 1 + (N − 1)/10 F5 1 4 3 Random

The column ‘First Usage’ provides a cost of a first usage of a particular supplemental fire. The column ‘Second Usage’ provides a cost of a second usage of the particular supplemental fire. The column ‘Third Usage’ provides a cost of a third usage of the particular supplemental fire. The column ‘N^(th) Usage’ provides a cost of an N^(th) usage of the particular supplemental fire, where N is any positive integer.

The supplemental fires ‘F1’, ‘F2’, ‘F3’, ‘F4’ and ‘F5’ may, for example, include one or more weapons, one or more ammunitions, one or more flash fires, and the like.

It can be seen from the example table that the cost of usage increases with each usage of the supplemental fires ‘F1’, ‘F2’ and ‘F4’. This potentially encourages the user to use the allocated funds for different supplemental fires, and not use a particular supplemental fire repeatedly.

In other scenarios, it can be seen from the example table that the cost of usage decreases with each usage of the supplemental fire ‘F3’, while the cost of usage is randomly chosen for each usage of the supplemental fire ‘F5’. This may provide an element of surprise for the user, and make user's experience of playing the game even more enjoyable.

Let us consider an example scenario in which the software product 312, when executed on the processor 304, has allocated ‘6 units’ as funds for usage of the supplemental fires ‘F1’, ‘F2’ and ‘F5’. In order to optimize utilization of the allocated funds, the user may optimally choose to fire the supplemental fire ‘F1’ once, the supplemental fire ‘F2’ twice, and the supplemental fire ‘F5’ once. From the example table, it can be seen that:

-   -   the cost of a first usage of the supplemental fire ‘F1’=2 units     -   the cost of a first usage of the supplemental fire ‘F2’=1 unit     -   the cost of a second usage of the supplemental fire ‘F2’=2 units     -   the cost of first usage of the supplemental fire ‘F5’=1 unit     -   Therefore, the total cost of usage=2+1+2+1=6 units

In this manner, increase in the cost of usage potentially encourages the user to use the allocated funds for different supplemental fires, and not use a particular supplemental fire repeatedly. This facilitates optimal usage of the supplemental fires.

Costs of usages provided in the example table are merely examples, which should not unduly limit the scope of the claims herein. A person skilled in the art will recognize many variations, alternatives, and modifications of embodiments of the present disclosure.

FIG. 5 is an illustration of an example screenshot of a game view 500 of the gaming system, in accordance with an embodiment of the present disclosure. The game view 500 may, for example, be a first view of a map that displays an enemy territory being attacked by the user. The enemy territory includes a land region 502 and a shore region 504, as shown in FIG. 5. Target objects 506 a and 506 b are positioned in the land region 502. In an example, the target objects 506 a and 506 b may be a head-quarter and a defence tower, respectively, belonging to the enemy territory.

Troop transportation units 508 are deployed as close to their respective deploy points 510 as possible on the shore region 504. Consequently, troops 512 emerging from the troop transportation units 508 enter the enemy territory from one or more areas in proximities of their respective deploy points 510.

Moreover, the user may select a type of troop to be deployed, for example, by selecting one or more troop-type options 514 provided on a selection-menu area 516.

In an example situation where the target object 506 b throws flames 518 on the troops 512, the user may choose to supplement the troops 512, for example, by using supplemental fires 520 provided on the selection-menu area 516. The supplemental fires 520 may, for example, include one or more weapons, one or more ammunitions, one or more flash fires, and the like. The supplemental fires 520 may be fired, for example, from one of the troop transportation units 508 and/or a battle-ship 522 positioned in a sea 524.

In the game view 500, funds 526 have been allocated for usage of various resources, such as the supplemental fires 520. When a particular supplemental fire is fired, the cost of usage of that particular supplemental fire is levied from the funds 526.

FIG. 5 is merely an example, which should not unduly limit the scope of the claims herein. A person skilled in the art will recognize many variations, alternatives, and modifications of embodiments of the present disclosure.

FIG. 6 is an illustration of an example screenshot of a game view 600 of the gaming system, in accordance with an embodiment of the present disclosure. The game view 600 may, for example, be a first view of a map that displays an enemy territory being attacked by the user. The enemy territory includes a land region 602 and a shore region 604, as shown in FIG. 6. A target object 606 is positioned in the land region 602. In an example, the target object 606 may be a head-quarter belonging to the enemy territory.

Troop transportation units 608 a, 608 b and 608 c are deployed to a free space that is nearest to their respective deploy points 610 a, 610 b and 610 c. Consequently, troops 612 emerging from the troop transportation units 608 a, 608 b and 608 c enter the enemy territory from one or more areas in proximities of their respective deploy points 610 a, 610 b and 610 c.

With reference to FIG. 6, the troops 612 are attacking the target object 606 from a particular location beside the target object 606. In order to guide the troops 612 to reach that particular location, the user selects a flash fire 614 to be fired at a fire point 616. The flash fire 614 may, for example, be fired from a battle-ship 618 positioned in a sea 620.

FIG. 6 is merely an example, which should not unduly limit the scope of the claims herein. A person skilled in the art will recognize many variations, alternatives, and modifications of embodiments of the present disclosure.

FIG. 7 is an illustration of an example game view 700 of the gaming system, in accordance with an embodiment of the present disclosure. The example game view 700 may, for example, be a first view of a map that displays an enemy territory being attacked by the user. The enemy territory includes a land region 702 and a shore region 704, as shown in FIG. 7. A plurality of target objects, depicted as a target object 706 a and a target object 706 b in FIG. 7, are positioned in the land region 702.

Let us consider an example scenario in which the user chose to deploy a troop transportation unit 708 a at a deploy point 710 a first. As shown in FIG. 7, the troop transportation unit 708 a is deployed to a free space that is nearest to its respective deploy point 710 a. Consequently, troops emerging from the troop transportation unit 708 a enter the enemy territory from one or more areas in a proximity of the deploy point 710 a, for example, to attack the target object 706 a.

In the example scenario, the user next chooses to deploy a troop transportation unit 708 b at a deploy point 710 b that is positioned above the deploy point 710 a on the shore region 704. With reference to FIG. 7, no free space is available on the shore region 704 above the troop transportation unit 708 a. Consequently, the troop transportation unit 708 b is being deployed at a free space below the troop transportation unit 708 a that is nearest to its respective deploy point 710 b, as depicted by an arrow 712 a.

Troops emerging from the troop transportation unit 708 b enter the enemy territory from one or more areas in a proximity of the deploy point 710 b, irrespective of a location at which the troop transportation unit 708 b is deployed. In this manner, the gaming system enables the user to control deployment of the troops, thereby enabling the user to define a war strategy as per his/her desire.

Furthermore, in the example scenario, the user chooses to deploy a troop transportation unit 708 c at a deploy point 710 c. With reference to FIG. 7, sufficient free space is available on the shore region 704. Consequently, the troop transportation unit 708 c is being deployed to a free space that is nearest to its respective deploy point 710 c, as depicted by an arrow 712 b.

FIG. 7 is merely an example, which should not unduly limit the scope of the claims herein. A person skilled in the art will recognize many variations, alternatives, and modifications of embodiments of the present disclosure.

FIGS. 8A, 8B and 8C are illustrations of an example game view 800 of the gaming system, in accordance with an embodiment of the present disclosure. As described earlier, the gaming system may include a war strategy game in which the user's purpose is to expand his/her territory, for example, by attacking one or more enemy territories. An enemy territory may, for example, be a territory owned by another user or a simulated opponent.

For illustration purposes only, let us assume that the gaming system has been implemented on the electronic device 300. The software product 312, when executed on the processor 304, is configured to present the example game view 800 on the graphical user interface generated and rendered on the display screen of the electronic device 300. The example game view 800 includes a second view of the map depicted in FIG. 8A, a third view of the map depicted in FIG. 8B, and a fourth view of the map depicted in FIG. 8C.

With reference to FIG. 8A, the second view of the map displays one or more user-owned territories, depicted as a user-owned territory 802; one or more enemy territories, depicted as enemy territories 804 a, 804 b, 804 c, 804 d and 804 e (hereinafter collectively referred to as enemy territories 804); and one or more friend territories, depicted as friend territories 806 a, 806 b and 806 c (hereinafter collectively referred to as friend territories 806). A friend territory may, for example, be a territory that may have been freed from an enemy. Additionally, the second view of the map displays one or more treasures, depicted as a treasure 808.

With reference to FIG. 8A, the user-owned territory 802 is located in a middle portion of the second view of the map, for example, by default. The software product 312, when executed on the processor 304, may be configured to allow the user to slide the second view of the map in all the directions, zoom-in to and zoom-out from the second view of the map, and so on.

The second view of the map includes one or more visible areas, depicted as a visible area 810, and one or more at-least-partially-hidden areas, depicted as at-least-partially-hidden areas 812. The user-owned territory 802, the enemy territories 804, the friend territories 806 and the treasure 808 are located within the visible area 810, and therefore, are visible to the user.

The software product 312, when executed on the processor 304, is optionally configured to present a user-selectable map-resource object 814 on the graphical user interface, and detect a user's selection of the user-selectable map-resource object 814. Consequently, the software product 312, when executed on the processor 304, is optionally configured to present a user-selectable upgrade option 816 on the graphical user interface, detect a user's selection of the user-selectable upgrade option 816, and upgrade the user-selectable map-resource object 814, based at least partially upon the user's selection of the user-selectable upgrade option 816.

In an example embodiment of the present disclosure, the user-selectable map-resource object 814 includes a radar. Consequently, the software product 312, when executed on the processor 304, is configured to present a third view of the map on the graphical user interface, as shown in FIG. 8B. Based at least partially upon the user's selection of the user-selectable map-resource object 814, at least one of the at-least-partially-hidden areas 812 of the second view of the map is made visible on the third view of the map. Beneficially, the at least one of the at-least-partially-hidden areas 812 is made visible when the user-selectable map-resource object 814 is upgraded. In this manner, the user may upgrade the user-selectable map-resource object 814 to explore unexplored areas.

With respect to FIGS. 8A and 8B, an at-least-partially-hidden area 818 on the second view of the map is made visible, and is shown as a visible area 822 on the third view of the map. As a result, a treasure 824 located within the visible area 822 is now visible to the user.

Moreover, the software product 312, when executed on the processor 304, is optionally configured to levy a cost of usage of the user-selectable map-resource object 814. The cost of usage of the user-selectable map-resource object 814 may be different for different at-least-partially-hidden areas. With reference to FIG. 8A, the cost of usage of the user-selectable map-resource object 814 for the at-least-partially-hidden area 818 is displayed as a cost 820 beside the user-selectable upgrade option 816. The cost of usage may be provided in any arbitrary units, and may be levied with respect to various resources, such as gold, gems, wood and stones, collected by the user.

With respect to FIG. 8B, the user may next choose to make an at-least-partially-hidden area 826 visible, for example, by upgrading the user-selectable map-resource object 814 again. With reference to FIG. 8C, the at-least-partially-hidden area 826 on the third view of the map is shown as a visible area 828 on the fourth view of the map. Consequently, the visible area 828 is now visible to the user.

Moreover, in an example situation where some or all of the enemy territories 804 are owned by other users, the other users may be selected randomly, for example, when the second view of the map is opened. Alternatively, the other users may be selected by the user him/herself. Yet alternatively, the user may invite other players to join the game, for example, using the network interface 308 of the electronic device 300.

Beneficially, selection of the other users may be dependent on a game level at which the user is playing the game. Accordingly, users playing at substantially similar game levels may be selected to play together with the user.

Furthermore, the software product 312, when executed on the processor 304, is optionally configured to enable a user's selection of one of the enemy territories 804 to be attacked. The one of the enemy territories 804 selected by the user may then be displayed in a manner that is similar to the first view of the map as illustrated in FIGS. 5 and 6.

In a situation where the user attacks the one of the enemy territories 804 and defeats the one of the enemy territories 804, the user receives resources that were previously in possession of the one of the enemy territories 804. The resources may, for example, include gold, gems, wood, stones, food, and so on. Accordingly, the software product 312, when executed on the processor 304, is optionally configured to transfer to the user the resources that were previously in possession of the one of the enemy territories 804, when the user defeats the one of the enemy territories 804.

In accordance with an embodiment of the present disclosure, the user receives the resources that were previously in possession of the one of the enemy territories 804 at a time when the resources of the one of the enemy territories 804 were first revealed to the user. The resources of the one of the enemy territories 804 may, for example, be revealed to the user when the user opens the first view of the map corresponding to the one of the enemy territories 804.

For illustration purposes only, let us consider an example scenario as described below:

1) At a time ‘t1’, a particular enemy territory has 150 units of a particular resource, such as gold, in possession. Let us assume that the particular enemy territory is owned by an opponent user. 2) The user chooses to open the first view of the map corresponding to the particular enemy territory, for example, to attack or visit the particular enemy territory at the time ‘t1’ or a time that is substantially close to the time ‘t1’, and finds that the particular enemy territory has 150 units of the particular resource in possession. 3) The user subsequently chooses to attack the particular enemy territory at the time ‘t1’ or the time that is substantially close to the time ‘t1’. Let us assume that the user does not win a battle against the particular enemy territory. Accordingly, the particular resource may not be transferred to the user. Alternatively, the particular resource may be transferred only partially to the user. 4) Over a period of time, for example, at a time ‘t2’, the particular enemy territory earns and/or gathers more units of the particular resource, say 3000 units of the particular resource. 5) The user chooses to attack the particular enemy territory again, for example, at the time ‘t2’ or a time that is substantially close to the time ‘t2’. The user sees that the particular enemy territory has 150 units of the particular resource in possession, i.e., an amount of the particular resource that was revealed to the user at the time ‘t1’ or the time that is substantially close to the time ‘t1’. Let us assume that the user wins the battle and defeats the opponent user. Accordingly, 150 units of the particular resource are transferred to the user. 6) As the opponent user lost the battle, the opponent user loses 3000 units of the particular resource, i.e., 100% of the particular resource he/she had in possession at the time ‘t2’.

In this manner, the gaming system ensures that the user receives the amount of the particular resource that was first revealed to the user, as the user saw the amount as an opportunity when the user attacked again. The gaming system also ensures that the opponent user loses 100% of the particular resource he/she had in possession, as it would not be fair if the opponent user loses only 150 units from 3000 units of the particular resource even after losing the battle. This potentially leads to optimal distribution of resources, and facilitates a balance in an economic system between the user and the opponent user.

Furthermore, the user can receive additional resources from one or more of the friend territories 806 that were freed from an enemy, for example, as a reward for freeing the one or more of the friend territories 806. Accordingly, the software product 312, when executed on the processor 304, is optionally configured to transfer to the user the additional resources from the one or more of the friend territories 806. Beneficially, the additional resources may be transferred on a periodic basis. For example, a particular friend territory may transfer 10 units of a resource per hour to the user.

FIGS. 8A, 8B and 8C are merely examples, which should not unduly limit the scope of the claims herein. A person skilled in the art will recognize many variations, alternatives, and modifications of embodiments of the present disclosure.

FIG. 9 is an illustration of an example game view 900 of the gaming system, in accordance with an embodiment of the present disclosure. The example game view 900 displays a home base of the user. The home base of the user includes a land region 902 and a shore region 904.

One or more user-selectable graphical objects, depicted as user-selectable graphical objects 906, are positioned in the land region 902. In an example, the user-selectable graphical objects 906 may include a head-quarter, one or more defence towers and other supporting structures.

The user can create, build, move, update or upgrade the user-selectable graphical objects 906. In one example, the user can use a new option 908 to create new user-selectable graphical objects.

With reference to FIG. 9, one or more user-selectable options 910 are presented to the user, for example, when the user selects one of the user-selectable graphical objects 906. The user-selectable options 910 may, for example, include an upgrade option that, when selected, upgrades the one of the user-selectable graphical objects 906 from its current level to a higher level. Additionally, the user-selectable options 910 may include an information option that, when selected, provides the user with information related to the one of the user-selectable graphical objects 906.

Optionally, one or more landscape objects, such as trees and cliffs, are displayed in the example game view 900, for example, corresponding to a landscape view selected by the user.

With reference to FIG. 9, an enemy can enter from the shore region 904 to attack the home base of the user. The shore region 904 is beside a sea 912 that surrounds the home base of the user.

A dock structure 914 is built in the sea 912. The dock structure 914 provides a free space for docking troop transportation units 916, a battle-ship 918, and a cargo-ship 920. The cargo-ship 920 may, for example, deliver supplies to and from the home base of the user.

Additionally, the user can use the new option 908 to create new troop-transportation units and battle-ships. It is to be noted here that the free space of the dock structure 914 can be limited or unlimited, for example, depending on a game configuration being used.

Moreover, the user can access other game views from the example game view 900. In one example, the user can access a map to select an enemy territory to be attacked. The map may be accessed, for example, using a map-view option 922.

Typically, there are certain resources in possession of the user. Available resources are beneficially displayed to the user. With reference to FIG. 9, the resources include gold units 924, gems 926 and wood 928.

The user can use some of these resources for various purposes. In one example, the user can use his/her resources to create or build certain user-selectable graphical objects, such as defence towers, troop transportation units, battle-ships and so on. In another example, the user can use his/her resources to upgrade a user-selectable graphical object or a game level itself.

Information about an amount of these resources in possession of the user is optionally updated to a remote server, such as the server 204. Beneficially, the information may be updated substantially continuously. Alternatively, the information may be updated periodically.

Moreover, the gaming system may allow the user to receive additional resources by making actual financial payments to the gaming system. Such financial payments may, for example, be made using a payment arrangement that is coupled in communication with the remote server.

Moreover, the example game view 900 also displays users' name 930 and a current score 932 of the user.

Additionally, the example game view 900 also displays a forum option 934, and a trouble-shooting option 936. When selected by the user, the forum option 934 initiates a discussion forum with other users, while the trouble-shooting option 936 provides information that helps the user to trouble-shoot problems that he/she may have encountered.

FIG. 9 is merely an example, which should not unduly limit the scope of the claims herein. A person skilled in the art will recognize many variations, alternatives, and modifications of embodiments of the present disclosure.

FIG. 10 is an illustration of steps of a method of facilitating user interactions with a graphical user interface, in accordance with an embodiment of the present disclosure. The method is depicted as a collection of steps in a logical flow diagram, which represents a sequence of steps that can be implemented in hardware, software, or a combination thereof.

As described earlier, the graphical user interface is generated and rendered on a display screen of an electronic device, by executing a software product on a computing hardware of the electronic device. The electronic device may, for example, be implemented in a manner that is similar to the implementation of the electronic device 300 and/or the electronic devices 202.

At a step 1002, a first view of a map is presented on the graphical user interface. The first view of the map displays an enemy territory.

At a step 1004, one or more user-selectable graphical objects are presented on the graphical user interface. The one or more user-selectable graphical objects include one or more troop transportation units.

The steps 1002 and 1004 may be performed simultaneously.

At a step 1006, a user's selection of one of the one or more troop transportation units is detected. In accordance with the step 1006, the one of the one or more troop transportation units is selected to be deployed to attack the enemy territory.

At a step 1008, a user's selection of a deploy point on the enemy territory is detected.

At a step 1010, deployment of the one of the one or more troop transportation units on the enemy territory is executed. Consequently, troops emerging from the one of the one or more troop transportation units enter the enemy territory from one or more areas in a proximity of the deploy point.

Optionally, the method may include additional steps at which a user's selection of a supplemental fire to be fired and a fire point on the enemy territory are detected; and consequently, firing of the supplemental fire is executed on the fire point selected on the enemy territory. In an example situation where the supplemental fire is a flash fire, the flash fire re-directs the troops to pass through one or more areas in a proximity of the fire point.

In this manner, the method enables the user to control deployment of the troops, thereby enabling the user to define a war strategy as per his/her desire.

Moreover, the method may include an optional step at which a cost of usage of the supplemental fire is levied. The method may also include an optional step at which the cost of usage is increased with each usage of the supplemental fire and/or after the supplemental fires has been used a predefined number of times.

Moreover, the method may include additional steps at which changes in status of the one or more user-selectable graphical objects are substantially continuously recorded and updated in a database coupled to the software product; and the status of the one or more user-selectable graphical objects are resumed to their last updated status in the database, in case of interruptions in the operations of the graphical user interface.

Furthermore, the method may include additional steps at which a plurality of electronic devices are coupled in communication with a server via a communication network; and graphical user interfaces are generated temporally concurrently on display screens of the plurality of electronic devices. The graphical user interfaces are coordinated through the server, and updated on the plurality of electronic devices concurrently with time, to facilitate interactions of a plurality of users with the graphical user interfaces. Beneficially, the method is implemented to facilitate an online multiplayer gaming system.

The steps 1002 to 1010 are only illustrative and other alternatives can also be provided where one or more steps are added, one or more steps are removed, or one or more steps are provided in a different sequence without departing from the scope of the claims herein.

Furthermore, the method may include additional steps at which a second view of the map is presented on the graphical user interface, wherein the second view of the map displays one or more user-owned territories and one or more enemy territories. This enables a user to select one of the one or more enemy territories to be attacked.

As illustrated in FIGS. 8A, 8B and 8C, the second view of the map includes one or more visible areas and one or more at-least-partially-hidden areas. The method may include additional steps at which a user-selectable map-resource object is presented on the graphical user interface; a user's selection of the user-selectable map-resource object is detected; and consequently, a third view of the map is presented on the graphical user interface. At least one of the one or more at-least-partially-hidden areas of the second view of the map is made visible on the third view of the map, based at least partially upon the user's selection of the user-selectable map-resource object. For example, the at least one of the one or more at-least-partially-hidden areas is made visible when the user-selectable map-resource object is upgraded.

Embodiments of the present disclosure provide a software product stored on non-transitory (non-transient) machine-readable data storage media, wherein the software product is executable upon the computing hardware of an electronic device, such as the electronic device 300 or one of the electronic devices 202, for implementing the method as described in conjunction with FIG. 10. The software product is optionally, for example, downloadable from a software application store, for example from an “App store”, to the electronic device.

Embodiments of the present disclosure are susceptible to being used for various purposes, including, though not limited to, enabling users to control deployment of troops, thereby enabling the users to define a war strategy as per their desire; facilitating optimal usage of supplemental fires; and facilitating a balance in an economic system between opponent users.

Modifications to embodiments of the present disclosure described in the foregoing are possible without departing from the scope of the present disclosure as defined by the accompanying claims. Expressions such as “including”, “comprising”, “incorporating”, “consisting of”, “have”, “is” used to describe and claim the present disclosure are intended to be construed in a non-exclusive manner, namely allowing for items, components or elements not explicitly described also to be present. Reference to the singular is also to be construed to relate to the plural. 

We claim:
 1. An electronic device comprising: a display; and a computing hardware including a memory, the memory including a software product stored thereon, wherein execution of the software product by the computing hardware causes the computing hardware to generate and render a graphical user interface on the display, wherein the computing hardware, upon execution of the software product, is configured to: render a first view of a map on a first portion of the graphical user interface; detect a selection of a first graphical object rendered on a second portion of the graphical user interface; detect a selection of a first point on the first view of the map; identify a free space in a proximity of the first point; execute a movement of an element associated with the first graphical object along a first route on the graphical user interface from a location of the first graphical object towards the identified free space; detect a selection of a second graphical object on the graphical user interface, a type of the second graphical object being different from a type of the first graphical object; detect a selection of a second point on the first view of the map; execute an action associated with the second graphical object at the second point; redirect the movement of the element from the first route to a second route toward the second point responsive to the action; and when the element reaches a location of the second point, redirect the movement of the element back towards the first route and the determined free space.
 2. The electronic device of claim 1, wherein the computing hardware, upon execution of the software product, is further configured to: detect another selection of the first graphical object in the second portion of the graphical user interface; identify a next free space in the proximity of the first point: execute a movement of a next element associated with the first graphical object along a next first route from the location of the first graphical object on the graphical user interface towards the next free space; detect another selection of the second graphical object; detect selection of a next second point; execute an action at the next second point associated with the second graphical object; redirect the movement of the next element from the next first route to a next second route toward the next second point; and when the next element reaches a location of the next second point, redirect the movement of the next element back towards the next first route and the next free space.
 3. The electronic device of claim 1, wherein the computing hardware, upon execution of the software product, is further configured to: detect a selection of another first graphical object rendered on the second portion of the graphical user interface; detect a selection of another first point on the first view of the map; identify another free space in a proximity of the another first point; execute a movement of an element associated with the another first graphical object along a first route from a location of the another first graphical object on the graphical user interface towards the identified another free space; detect a selection of another second graphical object on the graphical user interface, a type of the another second graphical object being different from a type of the another first graphical object; detect a selection of another second point on the first view of the map; execute an action at the another second point on the first view of the map associated with the another second graphical object; redirect the movement of the element from the another first route to another second route toward the another second point responsive to the action; and when the element reaches a location of the another second point, redirect the movement of the element back towards the another first route and the determined another free space.
 4. The electronic device of claim 1, wherein the computing hardware, upon execution of the software product, is further configured to: detect multiple selections of the first graphical object; generate a plurality of elements corresponding to a number of detected multiple selections; execute movement of the plurality of elements along different first routes; redirect movement of the plurality of elements from the first route to different second routes responsive to the action; and when the plurality of elements reach the location of the second point, redirect the movement of the plurality of elements back to towards the different first route and the determined free space.
 5. The electronic device of claim 1, further comprising an input interface rendered on the graphical user interface, the input interface being configured to detect an input corresponding a detection of a selection, the input comprising a movement of a pointer object, a clicking or tapping of the pointer object, or swiping a touch-sensitive object on or over the graphical user interface.
 6. The electronic device of claim 1, wherein the software product and the graphical user interface are implemented on a gaming system, the gaming system comprising a computer implemented game.
 7. A method of facilitating user interactions with a graphical user interface, the graphical user interface being generated and rendered on a display screen of an electronic device by executing a software product on a computing hardware of the electronic device, the method comprising: rendering a first view of a map on a first portion of the graphical user interface; detecting a selection of a first graphical object rendered on a second portion of the graphical user interface; detecting a selection of a first point on the first view of the map; identifying a free space in a proximity of the first point; executing a movement of an element associated with the first graphical object along a first route on the graphical user interface from a location of the first graphical object towards the identified free space; detecting a selection of a second graphical object on the graphical user interface, a type of the second graphical object being different from a type of the first graphical object; detecting a selection of a second point on the first view of the map; executing an action at the second point on the first view of the map associated with the second graphical object; redirecting the movement of the element from the first route to a second route toward the second point responsive to the action; and when the element reaches a location of the second point, redirecting the movement of the element back toward the first route and the determined free space.
 8. The method according to claim 7, the method further comprising: detecting another selection of the first graphical object in the second portion of the graphical user interface; identifying a next free space in the proximity of the first point: executing a movement of a next element associated with the first graphical object along a next first route from the location of the first graphical object on the graphical user interface towards the next free space; detecting another selection of the second graphical object; detecting selection of a next second point; executing an action at the next second point associated with the second graphical object; redirecting the movement of the next element from the next first route to a next second route toward the next second point; and when the next element reaches a location of the next second point, redirecting the movement of the next element back towards the next first route and the next free space.
 9. The method according to claim 7, wherein the method further comprises: detecting a selection of another first graphical object rendered on the second portion of the graphical user interface; detecting a selection of another first point on the first view of the map; identifying another free space in a proximity of the another first point; executing a movement of an element associated with the another first graphical object along a first route from a location of the another first graphical object on the graphical user interface towards the identified another free space; detecting a selection of another second graphical object on the graphical user interface, a type of the another second graphical object being different from a type of the another first graphical object; detecting a selection of another second point on the first view of the map; executing an action at the another second point on the first view of the map associated with the another second graphical object; redirecting the movement of the element from the another first route to another second route toward the another second point responsive to the action; and when the element reaches a location of the another second point, redirecting the movement of the element back towards the another first route and the determined another free space.
 10. The method according to claim 7, wherein the method further comprises: detecting multiple selections of the first graphical object; generating a plurality of elements corresponding to a number of detected multiple selections; executing movement of the plurality of elements along different first routes; redirecting movement of the plurality of elements from the first route to different second routes responsive to the action; and when the plurality of elements reach the location of the second point, redirecting the movement of the plurality of elements back to the different first route and towards the determined free space.
 11. A software product stored on non-transitory machine-readable data storage media, wherein the software product, when executed by the computing hardware of an electronic device, is configured to: render a first view of a map on a first portion of the graphical user interface; detect a selection of a first graphical object rendered on a second portion of the graphical user interface; detect a selection of a first point on the first view of the map; identify a free space in a proximity of the first point; execute a movement of an element associated with the first graphical object along a first route on the graphical user interface from a location of the first graphical object towards the identified free space; detect a selection of a second graphical object on the graphical user interface, a type of the second graphical object being different from a type of the first graphical object; detect a selection of a second point on the first view of the map; execute an action at the second point on the first view of the map associated with the second graphical object; redirect the movement of the element from the first route to a second route toward the second point responsive to the action; and when the element reaches a location of the second point, redirect the movement of the element back towards the first route and the determined free space.
 12. The software product of claim 11, wherein the computing hardware, upon execution of the software product, is further configured to: detect another selection of the first graphical object in the second portion of the graphical user interface; identify a next free space in the proximity of the first point: execute a movement of a next element associated with the first graphical object along a next first route from the location of the first graphical object on the graphical user interface towards the next free space; detect another selection of the second graphical object; detect selection of a next second point; execute an action at the next second point associated with the second graphical object; redirect the movement of the next element from the next first route to a next second route toward the next second point; and when the next element reaches a location of the next second point, redirect the movement of the next element back towards the next first route and the next free space. 